Angular speed regulating device for a wheel set in a timepiece movement including a magnetic escapement mechanism

What is claimed is: 1. A device for regulating a relative angular speed between a magnetic structure and a resonator, the regulating device comprising: the magnetic structure and the resonator which are magnetically coupled so as to define together an oscillator forming said regulating device; the magnetic structure including at least one annular magnetic path centered on an axis of rotation of said magnetic structure or of the resonator, the magnetic structure and the resonator being arranged to undergo a rotation relative to each other about said axis of rotation when a drive torque is applied to the magnetic structure or to the resonator; the resonator including at least one element for magnetic coupling to said annular magnetic path, this annular magnetic path being at least partially formed of a first magnetic material arranged so that a magnetic potential energy of the oscillator varies angularly in a periodic manner along the annular magnetic path and so that it defines an angular period of said annular magnetic path; said magnetic coupling element having an active end portion, located on a side of said magnetic structure, which is formed of a second magnetic material, of which at least one physical parameter is correlated to the magnetic potential energy of the oscillator but different therefrom, and which is magnetically coupled to the annular magnetic path so that an oscillation along a degree of freedom of a resonant mode of the resonator is maintained within a useful drive torque range applied to the magnetic structure or to the resonator and so that a determined integer number of periods of said oscillation occurs during said relative rotation in each angular period of the annular magnetic path, a frequency of said oscillation thus determining said relative angular speed; wherein said annular magnetic path has a dimension along said degree of freedom of the magnetic coupling element which is smaller than a dimension along this degree of freedom of said active end portion of the magnetic coupling element; wherein the resonator is arranged relative to the magnetic structure so that said active end portion is traversed, in orthogonal projection to a general geometric surface defined by said active end portion, by a geometric circle passing through a middle of the annular magnetic path only during substantially a first vibration in each period of said oscillation; wherein, within said useful drive torque range, said annular magnetic path and said magnetic coupling element define, in each angular period, as a function of a relative position defined by their relative angular position and a position of the coupling element along its degree of freedom, a magnetic potential energy accumulation area in the oscillator; and wherein said second magnetic material is arranged so that, at least in one area of said second magnetic material magnetically coupled at least partially to said annular magnetic path for relative positions of said annular magnetic path with respect to the magnetic coupling element corresponding to at least one part of the magnetic potential energy accumulation area in each angular period, said physical parameter gradually increases angularly or gradually decreases angularly. 2. The regulating device according to claim 1 , wherein said magnetic coupling element and said annular magnetic path are arranged so that the magnetic coupling element receives, during said relative rotation, impulses along its degree of freedom about a rest position of said magnetic coupling element; wherein said impulses define, as a function of the relative position of the magnetic coupling element with respect to the annular magnetic path and for said useful drive torque range delivered to the regulating device, impulse areas which are substantially localised in a central impulse area adjacent to magnetic potential energy accumulation areas. 3. The regulating device according to claim 2 , wherein said magnetic structure is arranged so that a mean angular gradient of said magnetic potential energy in said magnetic potential energy accumulation areas is significantly less than a mean magnetic potential energy gradient in said impulse areas along said degree of freedom and in a same unit. 4. The regulating device according to claim 3 , wherein a ratio of said mean angular gradient to said mean magnetic potential energy gradient along said degree of freedom is less than sixty percent (60%). 5. The regulating device according to claim 3 , wherein a ratio of said mean angular gradient to said mean magnetic potential energy gradient along said degree of freedom is less than or substantially equal to forty percent (40%). 6. A timepiece movement wherein the movement comprises the regulating device according to claim 3 , said regulating device defining a resonator and a magnetic escapement and serving to regulate a working of at least one mechanism of said timepiece movement. 7. The regulating device according to claim 2 , wherein a ratio between a radial dimension of the impulse areas and a radial dimension of the magnetic potential energy accumulation areas is less than fifty percent (50%). 8. The regulating device according to claim 2 , wherein a ratio between a radial dimension of the impulse areas and a radial dimension of the magnetic potential energy accumulation areas is less than or substantially equal to thirty percent (30%). 9. The regulating device according to claim 2 , wherein the magnetic potential energy in each magnetic potential energy accumulation area exhibits substantially no variation along the degree of freedom of the useful resonant mode of the resonator. 10. The regulating device according to claim 1 , wherein the gradual increase or decrease in said physical parameter, in each magnetic area corresponding to an area of magnetic potential energy accumulation, extends over an angular distance relative to said axis of rotation which is more than twenty percent (20%) of the angular period of said annular magnetic path. 11. The regulating device according to claim 1 , wherein the gradual increase or decrease in said physical parameter, in each magnetic area corresponding to a magnetic potential energy accumulation area, extends over an angular distance relative to said axis of rotation which is more than or substantially equal to forty percent (40%) of the angular period of said annular magnetic path. 12. The regulating device according to claim 1 , wherein said physical parameter is a distance between the annular magnetic path and a surface of revolution which has said axis of rotation as an axis of revolution and said degree of freedom as a generatrix of said surface of revolution, said distance substantially corresponding to an air gap between said magnetic coupling element and said annular magnetic path. 13. The regulating device according to claim 1 , wherein said active end portion is formed of a magnetized material, and wherein said physical parameter is an intensity of magnetic field flux generated by the magnetized material between said coupling element and said annular magnetic path. 14. The regulating device according to claim 1 , wherein a variation in said physical parameter is obtained by a plurality of holes in said second magnetic material whose density and/or section surface varies. 15. The regulating device according to claim 1 , wherein a variation in said physical parameter, in an area of said second magnetic material substantially corresponding to each magnetic potential energy accumulation area in the oscillator, is mainly in a direction orthogonal to said degree of freedom of said coupling element.